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Adhesion of perfume-filled microcapsules to model fabric surfaces

Authors :
He, Yanping
Bowen, James
Andrews, James W.
Liu, Min
Smets, Johan
Zhang, Zhibing
He, Yanping
Bowen, James
Andrews, James W.
Liu, Min
Smets, Johan
Zhang, Zhibing

Abstract

The retention and adhesion of melamine formaldehyde (MF) microcapsules on a model fabric surface in aqueous solution were investigated using a customised flow chamber technique and atomic force microscopy (AFM). A cellulose film was employed as a model fabric surface. Modification of the cellulose with chitosan was found to increase the retention and adhesion of microcapsules on the model fabric surface. The AFM force–displacement data reveal that bridging forces resulting from the extension of cellulose chains dominate the adhesion between the microcapsule and the unmodified cellulose film, whereas electrostatic attraction helps the microcapsules adhere to the chitosan-modified cellulose film. The correlation between results obtained using these two complementary techniques suggests that the flow chamber device can be potentially used for rapid screening of the effect of chemical modification on the adhesion of microparticles to surfaces, reducing the time required to achieve an optimal formulation.

Details

Database :
OAIster
Notes :
application/pdf, He, Yanping; Bowen, James ; Andrews, James W.; Liu, Min; Smets, Johan and Zhang, Zhibing (2014). Adhesion of perfume-filled microcapsules to model fabric surfaces. Journal of Microencapsulation, 31(5) pp. 430–439., English
Publication Type :
Electronic Resource
Accession number :
edsoai.on1358901950
Document Type :
Electronic Resource